Gas meter



Oct. 6, 1953 R. NEWTON l 2,654,247

GAS METER Filed April 12, 1946 :s sheets-sheet 1 M Marg-plm... mman 3 Sheets-Sheet 2 R. NEWTON GAS METER Oct. 6, 1953 Filed April 12, 194e Hawk-Ow Oct. 6, NEWTON GAS METE R Filed April l2. 1946 3 Sheets-Sheet 3 Figi l5.

9a E 9% 'iz' /f/ 66 l /07 Q 8/ e7 I l. m' f/o En @a Patented Oct. 6, 1953 G FFICELT GAS- METER-V Rohert NewtonsEast Melhourneevitoriaf Australia l Application'pril: 1 2, 1946i Serial Ns661g8i1 In Australia May yi3, 1945 9 Claims.u (Cl.r 'iSv-272)l This =invention :relates to improvements inqgas meters vand iii-refers particularly toiirygas lmeters of. the. type.v wherein :the t, index v:mechanismizand operating'leversare not .exposed to .gas action.;

There .are twoprincipal-types-of dry gas meters,4 commonly `termed the closed tcp meter and-.the opelntopA meter.:` In the closed: top typo of meter the valveszof the 'meterareenclosed within azsealed box mountedjon-thevupper surface of the 'valve rplate :so :that ,gas cannot escape from that box to contaminate the index and the operating levers 'of the f ymeter recording` mechanism.

Themovements ofthe dijaphragms oitthefmeter are transmitted tothe-@valves byf-meansof flag rods projecting upwardly through the valve plate, and by operating levers connected to the upper ends of 4the flag-` rods and. adapted to impart Yrotational movement to a crank.y 'I'he-Iiagrodslare held Within-'stuffing i'boxes mounted on` the valve plate; thev stuffing boxes being: provided fior;v the purposeof preventing escape oit'A gas from the diaphragm chambers to: the 4upper compartment of the meter; Alsofthecrank is `rotatably mounted in a stuffing box which is secured tothefboxiprovided about the valves.

These` three stufngboxes are-v necessarily packed relatively tightly; in order to .preventor restrict the escape ofgas through them, andthis causes resistance and. therefore pressure absorps tion. It is also to be noted that it has beenfound, in gas metery constructiom that ,gasshould- .be made to change direction of .flow ras .littlerasposf sible, As the. path through `which the gas is obliged to iiow, in a closed top meter, has arela tively vlarge .number of. turns there is a considerable resistance ,to thegas Particularly is this Ithe case when the rate of i'lowas increased beyond ,the now-capacity for which .the meter was designed Consequently, as the pressure absorbed 'within the meter increasesrwhen-the rate `of ow'of the gas increases, the'ow-capacity ofthe meter is limited:

Therefore,- inv order to `obtain 'aehigher frate of flowof gas for substantially thesanersize of-'gas meter-with a moreeicient operatione-the-open top type of meter has :been designed. In/thisrtype of- Vrneterstl'ie valves are ,not :enclosed Within a'box and the/eas is .admitteddirectlyztothe upper compartment .cfg the-meter. Consequently the gas lowsin a pathy which Ihas Afan.fewer.i'lurns than does the gasepath ci-a.c1osed^rtopsrneter.k Also, the. stuing boxes. in vwhich. the.. nag rods..7 are mounted `do not require to be packed as tightly asin the closed top type of meter owing tothe fact ,that there is asubstantial equalization of pressurepn"theopposite sides ofthe valve plate.

Inraddit-ionthe stufflngboxnfor thefcrankisfdis.- penseds; with z and? relatively,y littlef'resistance is offered by thestuiineboxor the -operatingspindie' tofthe index# mechanism; whichis required in the fopen top typezofwmeterrand: is securedrto :the

index; housing. TheVY elimination'A of the. crank stuffing boxn and:A the. relativefflooseness of- Y. the packing for the :flag fred stung-.boxesensures material reduction in' the cinternal friction ofthe meter.

In consequence -of-the reduction of. the internal friction within thehpen top gasvmeter thezsise of thev valve ports maybe-:increased with.. thev result that the flow capacity of .the .meter will bee-in.- creased far lbeyond thelowfeapacitygof'itheclosed top meter of-thesamesize.-

However, the-open; top -type-ofmeterfhasthe disadvantageethat ther indexstuffing .boxes sub ject tof leakageeand' thus the index mechanism as iwell-as the operatingzllevers are subjected l to gas action and :gummy .deposits frnayiorm on the workingt par-tslwithxconsequential loss toi. effi.-Y ciency.. Moreover the` index glass rapidly be. comes fdiscoloured'. and renders diincult ,the read: ingof. they meter.v It is also to beobserved that the presenceof gas .intheupperorvalve com: parl-,ment makes .the :testineand. .adjusting of a meter rather more complicated` thanwould bethe case if-thetopcompartmentwere .gas..fr.ee. In eectnaadjustment of a meter it isnecessary to t a vdummy top .after .an .adjustment .has been made, .try .the meter., then. remove `the .toptoefect further adjustments. This complex procedure greatly .slows down the .assembly ,of .meterst- This invention has been devised primarilyfor the. purpose. ofproviding .areas meter whiclc-V will .combinertheadvantagesof the open top. meter with those .of theclosedftop meter without the inherent .disadvantages .peculiar .to the two differenttypes...1 It is.. thereforea principalL object of the, inyention tn provide a. dry gas meter ,formed with two. compartments 4(toronvenience .termed theupper. and lower compartments-the .lower compartment containing the diaphragme and comprisingothe.diaphragm chambers) in which the 4upper.compertinent Willib'e ,kept free oileas so. that the :,index. andonerating levers Will not become contaminated; wherein the gas passaga wayswilI'have relatively fewbends or turns so that there is a minimum of Arestrictionto the flow ofgas; wherein liability ofescape of'gas through the internal gas f connectors will* bef reduced; wherein thestuiiing-box-forthe crank andor the indexwillv bedispensed with; and wherein liability ofescape Inoffgas from' the diaphragm comparte ments or chambers @tocthe #upper-f' compartment,

through the stuing boxes for the ag rods, will be reduced.

A dependent object is to devise a construction of gland, to replace the stuing boxes as at pres ent used, which will be very eilicient in operation in preventing the passage of gas without causing undue absorption of the gas pressure.

Another dependent object is to provide a slide valve of novel design and construction which will be very eioient in operation, which will enable the gas passageways to be straightened so that friction in the flow of gas will be reduced, which will have gasways of relatively large area so that the iiow of gas therethrough will not be restricted, and which will have a relatively small working movement over the valve seating whilst still permitting a relatively large gas flow. It is desired that the valve cover be so constructed that the force for imparting reciprocating motion to the cover should be applied at the most suitable location so as to reduce rocking, lifting or tilting of the cover, thereby being conducive to freedom of movement at high speeds.

A further object of this invention is to provide a closed top gas meter wherein the gas pressure required to overcome the inertia of the movable parts of the meter and also to overcome the friotional resistance within the meter will be considerably reduced, with consequential material reduction in the pressure absorption by the gas meter. This will result in greater enicency of operation, increased accuracy in the measurement of gas passing through the meter and a decrease in oscillation.

A still further object is to provide a dry gas meter which will be eflicient in operation; in which the connections of the meter itself-not including the connections of the gas supply pipes to the meter will be of improved design and construction so that they may be eiectively sealed against damage or undetected tampering; and which may incorporate an external cas ing, of ornamental and/or pleasing design if desired, made of moulded plastic material, cast iron, aluminium, or other material which need not necessarily be impervious to gas.

Another object is to provide a sturdy and rela tively simple construction of gas meter which will enable the parts to be readily made and economically assembled by a judicious combination of skilled and unskilled labour, so that the cost of production will be relatively low, and having means for eiecting repairs to, and cleaning and re-oiling of, the diaphragms whenever occasion may require.

With these and other objects in view I have designed a dry gas meter having a valve plate provided with trough-shaped valve seatings, and valve covers of complementary shape longitudinally sliable Within the valve seatings, each of the valve covers having at least two gasways formed transversely through it and each valve seating having ports with which the gasways of the relative cover are adapted to register.

As a consequence of the provision of valves of this design the inlet and outlet pipes of the gas meter are connected directly to inlet and outlet gas conduits which are fastened to the valve plate so as to be in direct communication with the relevant ports of the valve seatings, and gas ducts connect the other ports of the valve seatings with the diaphragm chambers. Gas flowing from the inlet pipe to a diaphragm chamber, and from a diaphragm chamber to the outlet pipe, passes horizontally through the valve '4 covers without rising above the upper surface of the said covers so that it does not enter the upper compartment.

Other features of the invention consist in a sealed inner casing housing the diaphragme; glands, for connection to the flag rods so as to prevent the escape of gas from the diaphragm chambers, consisting of tubular members of exible gas-resistant material such as plasticized polyvinyl chloride or synthetic rubber of that type shown by the trade mark Neoprene; housings adapted to fit about the inlet and outlet pipes of the gas meter so that any gas which may escape from the inlet and outlet pipe connections to the inlet and outlet gas conduits will be prevented from entering the upper compartment of the meter; and means for locking the inlet and outlet gas pipes against rotation relative to the meter casing.

The features of the invention may be applied to a gas meter having the well known top-connections or it may be readily adapted to a meter having side connections for the gas supply lines.

In order that the several features of my invention may be clearly understood, the improved construction of gas meter will nowl be described in conjunction with, and by making reference to, the accompanying sheets of illustrative drawings. In these drawings Figs. 7, 8, 9, 10, 1l, 12 and 13 are drawn on a larger scale than the remainder of the gures.

Fig. 1 is a front elevational view of one exemplary construction of gas meter incorporating the improvements I have devised.

Fig. 2 is a half-side view of the :fn-eter shown in Fig. 1.

Fig. 3 is a top plan of the gas meter oi the design illustrated in Fig. 1.

Fig. 4 is a horizontal section on the line, and in the direction of the arrows, --i of Fig. 1.

Fig. 5 illustrates a transverse section of the meter, as on the line 5 5 of Fig. eitaken partly through one of the glands and partly on the transverse axis.

Fig. 6 shows a half longitudinal section of the gas meter, taken as on the line, and in the direction of the arrows, i-t of Fig. 4.

Fig. 7 is a vertical section through the gastight gland, illustrating the detailed construction thereof.

Fig. 8 illustrates the sliding valve cover for the improved design of valve.

Fig. 9 is a cross-section on the line 9 2 of Fig. 8.

Fig. 10 shows, in side elevation, the valve seat ing made to suit the valve cover illustrated in Figs. 8 and 9.

Fig. 11 is an end view, showing the gasways, of the improved valve and valve mounting.

Fig. 12 is a horizontal section on the line |2-l E of Fig. 11, showing the valve cover in addition to the valve seating and valve mounting.

Fig. 13 illustrates the means adopted for securing the diaphragm Within the cylindrical wall of the sealed internal casing.

Fig. 14 illustrates, partly in front elevation and partly in transverse section, a modiiied construction of gas meter wherein the inlet and outlet gas pipes are spaced to suit the connection for the conventional side connection type of meter.

Fig. 15 is a half plan view of the meter shown in Fig. 14.

Fig. 16 is a half transverse section of a side connection type of meter incorporating slightly modified connections for the unict-tand# outlet pipes.:

Reference is nist'frnade tcfthefconstructionsrof gasl meter fandflpartsfthereorfillustrateda finfrig's. 1 'toi 13 1 inclusivef.

The fouterfV casing'` of thefg'as meter Lis. madedn two-parts", 'the Ilower portiongforibase, being-indircated vby the referencenumeralfl landlthefupper porti'c'n,;.or` cover.,` .by thenumeral12; Thev base I has studs 'or feetlon itsf'undersidefto protect the meter against damage 'when m'0unted,' and atrit'sfupper` end it is formed'wlth a-'flange 4-which, aseillustrated; isinturned.;` but may lbeffrrned externallyvof the casingbase 'I nr as --af-T-"-partly internal and partly "'external.'y The-flangef 4 lAis drilled and tapped,- as at 5 (Figif for the purpose to be hereinafter de'scribefzl.

The cover -2 has alongv its `lower edge-a flange 6 similar to the flange Adand at itsoppo's-it'e ends inwardly V'projectingf housings Tihaving -vertical openings-A 8 formedtherethrough. These housings maybe' formed integrally 'with the end Walls, as shown, cr-they may be formed separated from said\"end walls.' Concentrical-ly'wi'th each of 'the openings -8 f therefis! provided -a shallow y circular recess 9 on thevtop'y surfacefof the cover 2 and these-'recesses 9 "provide:s'eatings' for'thinfgaskets or-"seali'ngwashers In@ Thel cover I 2 isdrilled and tappedat two .locations I I on the transverse centre-line; forithe reason hereinafter set. out. The front wall ofthe cover 2 vhasan opening formed thereinfatfor near a central location `and inf-saidbpening is-ttedthe glass face-.IZfor the index of l'thegas meter. It ispreferred, for pur-poses offV safetyv and lto 1 restrict liability of tampering, that said glass "Trace" I 2 be yrit'ted `lfrom within the cover 2 .f

Mounted within the outer. casing/indicated by the freference f numerals `I and 2 is a 'sealed inner casing' and valve plate assembly which -incorporates all the working partsof the gas arreter.` The inner casing comprisesra cylindrical shell' I3 havingf aparttior'iing v'wall or division. plate I I 4 f securely fastened iat amid-point 7fof :its :length :to provide -two oppositezgas compartments-Island I6. Themrpositev ends 'of thefshell- I3 .are flanged outwardly, as -at I 'Lito fac-ilitatethe fixture thereto of -'rnpi'n'osite end plates Isfby soldering-or other suitable means.'

A circular bracket. I91`of the 'constriuctionillustrated Sin'Figs. Giand 13 isnrmlysecured within each ofthe gas compartments' I 5 and I 6 "provided withinl the f casing. `shell I 3 and. SeachV y.bracket'is positioned at 'or labout a location midwaybetween the-'wall Mandfthe-end plate. I8. ThesebracketsA I9 'are preferably constructed Iof sheet metal and' they"are of angled shape inf cross'" section. Saidbrackets,` I9 consist -offran outer limbfziigintermediate `lirnb"2l and` innerlimb 22, the outer limb .zbeing offsuchdiametral :sizefithatitints neatly withinL the shell' II Sand is readily soldered, or otherwise f' secured-, in .xed position. The in'- terrnediatef-limb 2l preferably. extends inwardly at fright :angles to thei outer l.limb '2n I' andi maybe relatively long so that thefinneralimbi is' spaced 'some distance :fromfthe wall of :thef inner Aveasing shell I3; This innerlimb :22 vis `shown as being parallelto theput'er-limb 20 and it'isirelatively short in length. Theicircumferentiahring 23of the `diaphragm is -adaptedto be soldered :tc-'the inn'erlimb-22, the lamounto:I"l'1e`at required -to produce an effective soldered joint beingrv relativelyV low owing tov the small amount v*of- 'metal that is to be heated to'the requisite-*solderingtemperature. Consequently; the risk=of burning the 6 leatheriofzthesdiaphragms irreectingrthatrsolderedajoin't will.I be greatlyreducecL'Y As alternativer-,designto obtain .the .same resultithe ibnacket :I 9 `may-,ghe made .with vthe .intermediate `limb .2 Il relatively -short and the-inner limbf'22relatively: long;l .the lring l23 being-soldered-:tothe oute'rend .of saidjinner limb 22.

When the .diaphragmeare fitted within. .the compartments .I 5; I 6,".each. of saidf compartments isaidvidednto separate gas chambers'24 and. 25.

The circular bracket I9, as well as serving-.to facilitate "thecassemblycof: thefmeter, also: preventsf-any'accumulation ofxwater.,` heavy tarry materia-L or. otherrdepositfleftv :by the gas :from contacting-i1 and" causing damage -to ythe dia.- phragms.=. Inzordertoensure Yready access to the interiorofvthe casingl3 forthe purpose'of draining :those deposits ttherefrom, cleaning the vdiafphragms and :interior :of Vthe casing; with fkerosene :or .other zsuitableiiiuidzand for .subsequently re-'eilingitheidiaphragms, .a drainage .ferrule 26 isprovided within: eachotxthe four gas chambers Land:25.1 Eachzoftheselferrules 2S iszscrewthreadediso that Aa stopper?! may be readilyfit.- ted thereto'to effect ai closure.; A vwasher or gasket' 28 is positionedxbetween the stopper 21 and the :outerf end of. i each ferrule `2 6 t tof. make af gas-tightA seal.-

The construction of each; of '.the diaphragms is conventionaLthe outeriedge or rimv of 'the oiled leatherdisc 29beingxedwithin'the circumferential ring123 `by means `oa clampingwire3 and thecentre lportion beng'clamped ybetween two .discoidpl'atesSL Abracket. 32 Yisfsecured tothe-outer sidefofitherdiscoid plates-.3|V at about amid-position andonefendof a flag-33 is hingedl'y connected 'to sald .bracket.:32,. the `opposite iend being fastenedto :azverticalioscillating rod'34 which has 'its flower.- end :"freely ijournaled: in a bearing' 35mountediwthinthe .wall ofthecasing shell I3.

E'achof the oscillatory rods-Sli projects upwardly'through the shellla and passes through 'afgland 36 fitted within'an"openingforined 'for the purpose'in thevalvepla'te, which is'toibe hereinafter=described-- In'order to eirect asastightsealat that opening inthe shell I3 Ythrough whichieachlrodlie "projects, and at the same time permit freedomofoscillatory movement, I provide-a sealing gland of the character illustrated inlig's. 5 and-7K A'top'guide 'or bearing member 3l is'fastened'withinthe wall of the shell i3, as by solderi-ngjso that thejoint is completely gas-y tight, and the rod-3--passesthrough'ari-axial hole in'saidmember 31 and isfr'eely vrotatable therein. The member` 3l 'l'i'as;i at a rind-point,v a' circumferential flange-'38 'and-a neck? 39 of reduced fdiameter below saidflange. A lower memberlill having an 'axial lhole therethrough is firmly-:fastenedgasby soldering; to therod 36!` at a suitable distance belowf theltopy member 3i. This lower member 4i] has, at a mid-point, a circumferen'' tialflangelll ancla'neck '42, of thesame diameter asthefn'eck 33;? abovev said flange. Afresilie'nt glandfmembe'rAAisSeCurely'.fastened 'at its upperfendto 'the neckft' and at itslower endto the ineck 42; and a thin metal washerrll is solderedtofthe-rod 31% immediately below the gland Seiterestrict therod et from lifting. The gland 4memloerltll may llee-fastened to the opposite'necks 3S and142lb`y the use ofna suitable bonding medin-in;V or 'by anyother suitable means. If requiredto more-readily' effect that'bonding, the Outer surfacesfof the necks 39 "and 42 may be yroughe'nedfor 'knurledf knownfashion.-

' The gland member 54 is preferably made from synthetic rubber'which will readily twist in a short arcuate movement upon the application of a very low torque. These synthetic materials are well known and most of them are impervious to town gas. Consequently, by careful selection, a suitable gland material is readily obtained. Alternatively, an oiled leather gland may be used and secured to the necks 3S and 42 by adhesives, or a torsion spring or by any other suitable means.

The valve plate 48 is of rectangular shape and it has, near its edges, a number of countersunk holes for the reception of fastening screws to secure said valve plate in position on the base member l of the outer casing. These holes and screws are provided at the locations indicated by the numeral 5 and said screws engage within the tapped holes formed at corresponding locations in the flange In order to ensure a neat tting of said valve plate L33 between the outer casing members l and 2 gaskets 49 and 55 are placed below and above the valve plate to seal the joints with the base member i and cover 2 respectively.

A channel-shaped support 5l having its opposite side extremities flanged outwardly at 52 is secured in position below the valve plate 48, preferably with its axis on the longitudinal centre line of the gas meter. This channel support 5I may be made in one continuous length, as shown, or it may be made in two separate sections disposed in parallel arrangement or set at 90 angularity. When the valves are arranged at that angularity it is preferred that the ports of the valve seatings 53 should be parallel with the division plate l5. Cutouts are made in the valve plate at appropriate locations to suit the dispositions of the channel-shaped support 5i. The purpose of said cutouts will be made clear` from the following description of the valve seatings and covers.

Accommodated within the channel support 5l are two similar valve seatings 55 of the construction illustrated particularly in Figs. 10, 1l and 12. These seatings are preferably made of valve metal and each seating is semi-circular in crosssection having a locating feather 55 on its under- Surface to t within a recess formed for the purpose in the channel 5i. rhe end ports 55 and 55 and an intermediate port 5l are formed in the seating 53 on each of the opposite sides thereof so that a narrow rib or longitudinal partition 53a of metal remains between the ports at the opposite sides of the valve seating. The metal portions of the valve seating separating the gasways 55, 5S and 5l' are relatively narrow so as to reduce the reciprocating travel of the valve cover and the wearing surfaces of the valve seating. If thought necessary, recesses 58 (Fig. 12) may be formed in the valve seating 53 at its opposite ends to reduce the wearing surface of said seating.

The valve cover 59 is of the design and construction illustrated by Figs. 8 and 9 and consists of a semi-cylindrical bodypreferably made of metalhaving through gasways 6B and Si formed at its opposite ends. A transfer gasway 62 is constructed at an intermediate position and between each of said through gasways 55 and 6i and the transfer gasvvay 52 is a sealing face 63. A partitioning wall 5t'. links the two sealing faces 53 and registers with the longitudinal partition 53a of the related valve seating to provide a blockage and prevent the ow of gas through the valve cover at that location. The metal blocks made by the provision of the sealing faces are recessed at 65-as shown in Fig. 9-for the purpose of lightness and reduction of the amount of metal used in the manufacture of the valve cover. These recesses 55 also provide reservoirs for the storage of oil for lubricating the valve seating 53. In the top surface of the valve cover 59 there is formed, along the longitudinal axis of said cover, a shallow recess 66, and oiling grooves 61 are cut transversely from the recesses 55 to the side edges of the cover.

An adjustable sliding plate E8 is tted within the recess 55 and the plate has, near its inner end, an upstanding shouldered stud S9 to which is fitted one end of the connecting link for driving the valve from the conventional crank (not shown) the double throw type of crank being required when the valves are in alignment as illustrated. A slot 'ill is cut in the plate 68 near its outer end and through said slot is passed a screw 'H fitted within a screw-threaded hole formed near the outer end of the valve cover 59. By slacliening the screw 'll the plate 68 may be moved slidably within the slot E6 to adjust the setting or timing of the valve cover 59 relative to the movement of the diaphragm 29.

Cover strips l2 overlie the opposite longitudinal edge portions of the valve cover and are fastened by means of screws to the upper surface of the valve plate 58. These cover strips I2 retain the valve covers 59 slidably in position on their seatings 53. Midway between the valve seatings 53 and on the longitudinal centre line of the meter there is iitted a bearing 'i3 to accommodate the lower end of the crank for operating the valves.

The mechanism for operating the valves from the Vertical rods 54 and the index for recording the amount of gas that passes through the meter are not shown as these parts are of conventional design and any one of a number of standard mechanisms may be used.

Secured below the valve plate 4B are two oppositely disposed gas conduits 'M and 15. Each of these conduits is of outwardly tapering shape and their adjacent inner ends are fastened, as by soldering, to opposite sides of the channel 5l. In that side of the channel 5| to which the conduit 'm is fastened there are formed four openings at locations corresponding to the ports 55 and 56 of the valve seatings 53, whilst in the opposite side of the channel tilthat is, the side connected to the conduit 'I5-there are provided openings, corresponding to the ports 5l of the seatings 53, leading directly to the conduit 15 and on opposite sides of said ports 5'! openings corresponding to the ports 55 and 55. About these latter openings there are securely mounted downwardly extending ducts 16 and l1 which pass through the conduit 'l5-the injunction being sealed as by soldering-and are connected to the cylindrical shell i3. The shell I3 has openings formed in its wall at appropriate locations so that gas can flow through the port 55 and duct T6 to the gas chamber 24 or, alternatively, through the port 56 and duct 'VI to the gas chamber 25.

Supporting columns i8 are tted below the outer ends of the conduits lli and E5 and the lower ends of these columns are secured to the outer wall of the cylindrical casing i3, thereby providing va firm and rigid connection of the valve plate assembly to the casing i3. These columns are of hollow construction and they may be in communication with the interior of the conduits 14, 'I5-as shown in Fig. 5--so that any material or moisture deposited in said conduits 14, 'l5 by $9. thergasfoassine. through :the meterwill Vinto said columnsffl; tnerepy reducing tnespcssibiiity of. eascondensates trom. reaching .the valve .seatmgs.

At-.the cuterend of; each of .the ccnduits Mend l5. there-.are-secured sockets Hand 8l). `respective 1y, Nwhich e; extend .upwardly through -the- 4val-ve plate; 48.. Tliese sockets 3.91. wint-within the opone ingY .8: of' the :housings: 1 .in the cover; -2 whenrsad cover is tted over the 'valve plate @fand-.aire `i111- ternallyl screw threaded :to receive thelower ends ofi snor-tconnectingA pipes `8| and 82; respectively. Each: of.:these .pipes -81 ,w ZQhasa- Hangs; B3 of ,hexagonalor other shape formed,-integrally1near'rits upper end. `and thezouter. vendoi each Apipe 1is rexternally screw-threaded at'd to; permit the con nections .of gas f. supply 1 andndeliverytpipes @not shown).

A 'locking-,bar 85 is provided -forfthefpurposezof securely fa'steningzithe` inlet and outlet gas pipes' lrandz .against .rotation,-.once the cover; 2.l1as been `clamped imposition, and Lsaid .'barsS: also serves tofprevent, or render readily'detectable;I any tampering-.or unauthorized interference withthe gas meter. 'I-his Vlooking.:fbar hasnt 'its opposite endsA openings-of suitableshape to engage lvv-ith anges 83::.on athe connecting #pipes 8.I Aand132. Theflocking-bar thus preventsithe rotation of. said pipes ..8 I ,f- .2-when it ris'` lreldilat on top of 'the meter .cover 2. I Gou-nteri-'boredl holes? 86 are^pro vidediin-zthedockingbarifso that screws 81 may beifitted therethrough* to engagev in 'the- Itapped holes 4 t 1in theoover 2, :thereby securely retaining said. lookin-,fgolcarif-ii-riirl-yin position. y"Vllhen :the meterv fis assembled and: the locking-bar 85 isi lin position,seals areA placed infposition overthe heads Lof the screws-81 -by @competent-authority sof-that, order to ftamper'witha meter, theseals will=needto loemoved,` thereby making such interference readily detectable.

I .It :is: apparent that -the locking bar- 85.Wi11pre venti-the rotational-displacement of the -twoppes 8 I and 32: during 'theinstal-lation-of 'thegas meter and will; therefore, prevent 'the -coverl -2 from -be ingfloosened, i'vhich'would possiblyl permit leakages-of lgael-intov the uppercoinpartment. "Itis toibefnoted 'that 'there-is `no necessity for the connections of the pipes 8l and 82 with the sockets flllzandfeete` `be `renderedY absolutely gas tight as leakages" from thoseconnecticns are Arendered of little lirnportanceloy the provision of thehousin-gs 8 and the gaskets Il l) and 50.

assemblingf the f gas meter constructed as hereinabove described the Ierrules v2'6 are `fitted in position-within the Wall of 'thefshell 13," the g parti-tion'- idlis sealed Withinthe cylindrical shell I3; the-circular brackets I9y arefit-ted Within the compartments l 5fvl and -l'f and the diaphragms are then secured to-said brackets 19. `The channe1-5l istted with thevalve seatings 523 and is mounted lbelow :the-valveyplate l 48,- the ducts: 76

and-'1W are :fastened -to-tliechan-nel v51,; sockets le and-8e are secu-red' to the valve plate 43,Y conduits TM and '-15 rare connected to the-valve plate e8; and *the columns la are soldered tothe conduits tlll-'and 15. `v'Fliese columnsf and ducts' 16 and 'l'lare=-nextf connected tothe casing 4L3- -thereby --rigidly mounting the :valve plate '48 .on l"tloeocasing 'I 3,- v'flags 33' and` glands* 3l to 4 4 ,are fittedto'the vertical rods 34- and these-Withyotlrer necessary'ttings and the bearings 35 and'SB, are .then mounted `inv posi-tion and the' vlagslfsil `:connected to' thediap'hrag-ms. vThe end plates; t8 and-:Stoppers 21 can then' be--securedin-'position and ....iwhen. this valve plate-internaly casing:v assembly ais completed: the whole :assembly v can be ttedewithinithe: ase! cifthe OuterA Gesine and fastenedcinay place ylertlle screws indicated.- at 5, the gasket 49 being rStIEtIEQdtQensure-a'gastie'ht seal.

fvalve-f--coverseareithen.;@tice within the seatingsr-uend l covergst ps. l2r.and;,crank bearings.:irarenlacedfin correct position- The cceratinamecliensm (not slice/im .for linking the valves.; to therodsft then 2.installelfy with the recording rrmeasurns nd x, .also not illustrated,..andv the va. usted and Set in-ccf.- rect position. ,los the ,mechanism -it will.;berioundiadyisalolefto:feet the rods asso thatzfthey are inthermiis-trarel positions .when thej-gendmembr A4 .fis :1;'GS llIlSiillalied ,state so that-.the said-slanci :member Merrill-.be subjected toaarmini-mum ortorsionalftrescs.-

:Tneeasket ismlaced Overfthe valve plate 5.3

mand tnerpioese-.Bl y sccketsrlsfrsn. .i ctie .cf screwing .mese pipeszinto-.thcirsocket the-cover -i2' .to be clampedcftichtl-ymnwto .th vali/,c clate-fe8,.the gasketaneensnnine easntie al ..aboutf the pipe-socket @connections 1- 12B-8l .rand @ile-,82, The Washers Il) provide additionaLsealing means against the-.escap.e.oi:gas from the-housing clarambern 8,: 'should aftheszrconneetions of 1 the pipes 3 l and.. B2 mot hezpereotlysgaslftight, The pipes. 8i -82: are tightened the covercrZfis-held tightly in -fpo's-ition-eanduntil. ...the .'ilansfesv .3;3 aresin correct positionior irtmentot thejlorckingrban- Se. ISaid hay; 25 =.-.is.theneplacedi .oNerotlie-"ranges 83 and screwed andffsealed :in position.

'-*Tneiflockingrbar EBS perfomnstm subsidiary duty of reducingtthe stressesuon-ithe .pipe-.socket connections' 1e-,18.1 ands eure-:B2: when the; supply and-delir/ery'.gasnconnections varezioeing made on the screwedaendsfdnofrithevpipesf Land i B2 as the-maior portion :ofnanyutorsional Aload Willsbe absorbed themateri'al'f of .ithe vlock-ing bar.

Itewillhlce noted ftromfthe :foregoing 'description-f thatthe lassembly procedure f- -fisrelatively simples/andthe amount:ofc-manual` operation is censideraslyfreduced. Insomefew of the .operations skilled labour Lis-frequired 'but the maj or porticrioof'- thesworkvcan be performedl :by -un- 'skilledflabou-r. Moreoven tlletesting`l offthemeter and 'theadustment oi? the tangent `can be per- -formedewitleout ltilienecessity of-*fitting a `substitute cover and then-removing A'it -to make lnecessary adustmentsJas is-customary with open 'topU types\o--meters. fn 'the 'operation oiflthe im-eter,- the-:gas lsupply qline viscenne'ctedto pipeifLf the Vv.gas passes Atierougliftlie-pipe8|-to tliefccnduit'lc andin a ystrafigfliit passage through -a-ninlet per-t 5 5 4in* one of 'the valveseatings =53,-gasway 60 in the corresponding-valve eoverlSJ; tl'iepppesijte4 or f outlet `portait-5*,iritliat 'vgtlve '-seating; and stra-ight down .theduct lirfto the gas chamber l-asindicated by the arrows A in lland `1,2. In that pas- 'sagethe'gasis subected to'ftwoytu-rns only. -At '-tylie'same time'gas Wi1l,be; ejectedl from trie-gas gliamberg 'upwardly through the `fduct ATi, 011tjlet port 56,J transfer gasway' 62f-ingthe1-va1ve 531, =outlet-portf 51 irr'tlieval-Ve-Seating 53 to the conduit-,145; andjtlience outthronglr the pipe 82. 'FI-heg outward passage throughl the v valve is indicated by the arrows B- `ofii'gs. f1-1 and 12. In this flow, also; there* are only two tur-ns.

elsfv Vrtlie#gas-*fis passing i' Afrom the conduit i 14 1 l through the inlet port 55 and gasway G0 gas is prevented from iiowing through the inlet port 55 from the conduit 14 by the partitioning wall 54 in the valve cover l59.

When the valve cover 59 is moved longitudinally on its seating 53 the inlet port 55 is gradually cut olf by the sealing face 53 adjacent the gasway 60 and, at the same time, the outlet port 5e is cut off by the face 63 adjacent the gasway 6 l. Immediately after these two ports are finally closed the inlet port 56 and the outlet port 55 are opened to permit the passage of gas through the gasway 5| in the valve cover 5S, down the duct 11 to the chamber 25; at the same time gas is ejected from the chamber 24 upwardly through the duct outlet port 55, transfer gas- Way 62 in the valve cover 59 and outlet port 51. The two valves, supplying the gas compartments i5 and I5, are set so that one valve leads the other by 90 in its travel so as to ensure a uniform and continuous supply of gas through the meter-as is customary practice.

Where it is desired, as is oftentimes found necessary, to supply lubrication to the valves a suitable lubricant is placed in the valve recesses so that in the sliding movement of the valve covers 58 that lubricant is fed as required through the oling grooves 61 to the cover strips 12 and valve seatings 53.

The movement of the diaphragms 29 causes the vertical rods 34 to oscillate about a vertical axis, the angularity of the movement being, for most constructions of meter, approximately 30. During that movement the gland member 44 will be twisted rst in one direction and then in the reverse direction, permitting relative freedom of movement of the vertical rod 34 whilst at the same time ensuring a gas-tight seal between the interior and exterior of the casing I3.

The gas meter described with reference to, and as illustrated by, Figs. 1 to 6 is a meter having the gas delivery eiected through the top of the meter. Figs. 14 and 15 illustrate the adaptation of the top connection type of meter to suit the spacing of the inlet and outlet gas pipes of the side connection meter arrangement of parts. Fig. 16 shows the meter casing as constructed to suit a side connection meter, the meter incorporating the features of this invention and, at the same time, having the gas supply and delivery pipes connected through the side of the meter. This latter construction permits the use of improved procedure in assembling the valve plate and casing of the meter.

As shown in Figs. 14 and 15 the gas meter consists of the same features of design and construction as the meter illustrated in and by Figs. 1 to 6 With the exception that the inlet and outlet pipes are spaced a greater distance apart than the inlet and outlet pipes of the top connection meter hereinbefore described. This is due to standardised production and installation requirements so that the connections therefor will be similar to the connections for the side connection type of meter.

In this construction the base has bays 98 formed integrally with the opposite side walls and these bays are adapted to accommodate side extensions 99 oi the gas conduits 14 and 15. Sockets 19, 80 are secured in said extensions 99, as hereinabove described, and they project upwardly through lug extensions |00 of the valve plate 48. The top cover 2 has side bays 10| oi shape similar to the Vbays 98 and these bays 0| .constitute housings similar in operation to the housings 1, having openings 8 to accommodate the sockets 19 and 80 and the pipes 8| and 82. Recesses 9 in the top of the cover 2 provide seatings for gaskets I0 as heretofore described and the parts of the meter are assembled in manner similar to the assembly of the meter described with reference to Figs. l to 6. The locking bar is longer than the locking bar for the meter shown in Figs. l to 6 but is fastened in position and operates in the same manner.

Fig. 16 illustrates a further modified construction of casing and valve plate assembly, as adapted to a side connection meter and not having housings to fit about the inlet and outlet pipes. In this construction each of the conduits 14, 15 has a co-axial socket member |02 at its outer end extending horizontally outwardly, and the opposite side walls of the outer casing base have formed therein openings through which are fitted the inlet branches |03 of elbow connections |04. The inlet branch |03 of each elbour connection |04 is shouldered at |05 and the neck so formed is externally screw threaded so that said elbows may `be secured into the respective sockets |02. A gasket |05 is tted between the outer end of each socket |02 and each shoulder |05 to ensure a gas tight seal.

The elbow connections |04 are internally screw-threaded at their upper ends to permit the connection thereto of inlet and outlet gas pipes |51. These pipes are similar in all respects to the gas pipes 8l and 82 with the exception that they are of reduced diameter at their lower ends, providing shoulders |09. A gasket |10 is litted on the lower screw-threaded end of each of the pipes |01, to be clamped between the upper end of the relevant elbow connection |04 and the shoulder |09 to thereby provide a gas tight seal of the connections of the pipes |01 with the elbows |04.

The top cover is constructed slightly differently to the cover 2 illustrated for the top delivery meter in Figs. 1 5. This cover has side extensions I having openings to accommodate the inlet and outlet pipes |01 formed vertically therein. The locking bar 85 is similar to the locking bar for the meter shown in Figs. 14 and 15.

In the assembly of the meter the elbow connections |04 are screwed into the sockets |02 until they are tight and in a vertical position as shown. The cover 2 is then tted in position and the pipes |01, |08 are screwed into the elbow connections |04 to clamp said cover tightly down on the valve plate 48. The locking bar 85 ls then iitted and sealed in the manner already described with reference to the top connection type of meter. Moreover, it is to be noted that with this construction the necessity for fastening the valve plate 43 to the base I--achieved by use of the screws fitting through holes in said valve plate and engaging in the tapped holes 5 in the flange 4-is eliminated as the fitting of the pipe connections |01, |08 rmly clamps the top cover 2 and valve plate 48, with the gaskets 49 and 50, to the base The casing is thus assembled without the use of screws.

The gas meter constructed in accordance with this invention will be found to possess features which will be of particular importance in use. The trough shaped valve is of extremely useful design as it permits a high rate of ow of gas and, moreover, the amount of gas passing through the valve can be raised by increasing the transverse area of the valveincreasing the diameter i3 in the case of the valve shown in Figs. Sand- 9 when the gasways will be increased proportionately. The valve coverhas a relatively short travel in its reciprocatory movement vand is, therefore, particularly suited to high capacity gas meters. Moreover, by reason of the particular design of the valve it will be found that there is no necessity to have the end guides which are normally employed where D-slide valves are used'.

The valves are also of importance in that they form a seal between the lower chamber of the gas meter and the upper chamber, eii'ectively-preventing the gas from rising into said upperchamber. As an additional feature is their ease of manufacture and the fact that they can readily be made to fine limits of accuracy and keptwto predetermined sizes.

Another feature of major vimportance isl the resilient, gas-resistant gland that replacesfthe stuffing boxes normally employed for' the purpose of effecting a gas-tight seal between the upper and lower compartments of the gas meter. Those stuing boxes are relatively lineffi-cient in that they are-,very rarely gas-tight, theyset up relatively great frictional forces ifti'ghtene'd in an endeavour to make a gas tight seal, and-*are a general source of trouble, as the packings in them wear. The gland' which forms a partof my invention permits the making of a commercially gas-tight inner casing wherein-the gas is `retained, thereby ensuring that'the `upper chamber of the meter is kept free from gas. This freedom from gas will-permit the useof plastics in the manufacture of the outer casing as the outer casing it not subjected to gas action when'thef sealed inner casing and resilient gland are used. This gland also considerably reduces the resistance of the meter and consequently reduces absorption of pressure by the meter.

The housings provided in the top cover of the outer casing also act, in the top connection type of meter, tov prevent the escape cf gas tothe upper gas chamber. But, if Vso required, these housings may be dispensed with. When that is done the gas pipes 8lv and 82 willpreierablyvr be shouldered nearl their lower ends, as is illustrated in Fig. 14, so` that they are tightened'on tothose shoulders when the cover 2 is clamped in position, gaskets I 06 being iitted about theirlower ends to ensure a gas tight seal.

The construction of thefmetericasing, and of the gasv conduits within the casing, will be found to be extremely meritorious as the amount of manual labour required to manufactureitheV meter is considerably reduced andthe production of the meter, as an entirety, is :considerablysimpliiied.

The assembly of the meter is relatively simple and permits the use of unskilled as Well as skilled labour. The nal stage of the assembly is effected by the iitting of the pipes 8| and 82, from the outside of the meter, into thesockets- 19nand 80. so that the cover is tightly clamped in position and then fastening the locking bar 85- securely in position.

The major features of the invention hereinabove described combine to provide a gas meter of high capacity without the. disadvantages associated with the open top type of meter. The top of this gas meter will be free from the contamination of gas, therebyy permitting a more enicient operationY of the. crank and linkage'mechanisms and avoiding discoloration of the index glass I2 whilst at the .same timegreatly facilitating the adjustment and testing of the meter.` As a result of the reduction of the resistance of the 14 meter to the gas now-achieved by the""straight througho.w inthe valves and the provision of the .exible gas-resistant :glandsthe pressure absorptionwillV be greatly reduced, and consequently soalso will be oscillation inthe gaspressures.

What I do claim is:

1. .In a .dry .gas meter having at least one gas compartment with a diaphragm extending thereacross to divide the gascompartment intoltwo separate gas chambers; the combination of a valve plate, a trough-shaped valve seatingV for each gasvcompartment mounted on said valve plate,;said trough-shaped valve seating having two pairs of' transversely arranged end gas ports and a pair of transversely arranged transfer ports disposed intermediate said pairs' of end gas ports, an inlet gas conduitcommunicating with one of theend gas ports of each of said two pairs at one side of said valve seating, an outlet gas conduit communicating with the one of said pair of transferfports--at the other side of vsaid-valve seating, a first gas duct extending fromr the other end gas port ofI one of said pairs of end gas ports to one r ofthe separate gas chambers, a second gas duct extending from the other end gas port of the other of said pairs of end -gas `ports to the other ofthe separate gas chambers, and a valve vcover slidable longitudinally on said Yseating and of complementary configuration thereto and having two gasways extending transversely therethrough adjacent the opposite ends of the valve cover and a transfer gasway extending partly across said valve cover between said two gasways and opening'towards said other side of the valve seating, said two gasways extending through thevalve cover being spaced apart' longitudinally for alternativeregistration Ywithl either one of saidtwo pairs of end gas lports and said transfer `gasvvay being dimensioned to simultaneously register withV the-transfer port at said other side ofthe valve seating and vwith the end gas port at said other' side of the valve seating which is of the pair of end gas ports then out of registration with said `gasways extending throughk the valve cover, so'that 'gasis directed from said inlet'conduit through-saidvalve cover'and into one of the gas chambers and out of the other gas chamber through the valve cover and into said outlet conduit.

2. 'In a dry gas Vmeter having at least one gas compartment with a diaphragm extending thereacross todivide thegasy compartment into two separate gas chambers and having diaphragm actuatedr mechanism; the combination of a valve plate disposed above the gas compartment, a trough-shaped valve seating for each gas compartment mounted on said plate, said troughshaped valve seating having two pairs oftransversely arranged end gas ports opening at the opposite sides thereofV anda longitudinal partition at the' bottom of said seatingl separating the endgas Yports at one sideA of said seating from the end gas portsat the otherside of said seating, said valve seating further having a transfer gas port at least atsaidotherside of the valve seating and disposed between the endrgas ports at the related side=foftheseating with said longitudinal parti- Ytiondeiiningan edge ofv said transfer'port, an inletv gas conduit opening into said end gasports at said one side ofthe valve seating, an outlet gas conduit communicating with said transfer gas port at sai-d other side of the valve seating, a first gas'duct extending from one of said end gas ports at said other side of the valve seating for com- 'munication with one ofthe gas chambers, a second gas duct extending from the other of said end gas ports at said other side of the valve seating for communication with the other gas chamber, and a valve cover slidable longitudinally on said valve seating and of complementary coniiguration, said valve cover having two gasways extending transversely therethrough adjacent the opposite ends of the valve cover, the longitudinal distance between said two gasways being greater than the longitudinal distance between said pairs of end gas ports so that said gasways are selectively registerable one at a time with either of said pairs of end gas ports, said valve cover further having a transfer gasway extending partly across said valve cover between said two gasways and opening toward said other side of the valve seating, said transfer gasway being dimensioned to simultaneously register with said transfer port at said other side of the valve seating and with the one of said end gas ports at said other side of the valve seating which is then out of registration with the gasways extending through the valve cover so that gas is directed from said inlet conduit through said Valve seating and cover to one of the gas chambers and from the other of the gas chambers through said valve seating and cover to said outlet conduit.

3. In a dry gas meter; the combination according to claim 2, wherein said valve cover is formed with a ilat upper surface having a recess therein to receive a suitable lubricant.

4. In a dry gas meter; the combination according to claim 2, wherein said valve cover has a longitudinally extending recess in the upper surface thereof, a plate fitting slidably in said longitudinal recess, means for securing said plate in a desired adjusted position within said longitudinal recess, and means on said plate for connection to the diaphragm actuated mechanism of the meter.

5. In a dry gas meter; the combination according to claim 2, further comprising retaining strips secured along the upper edge portions of said valve plate on the opposite sides of the valve seating and overlying the longitudinal edges of said valve cover to bear upon the upper surface of the latter and prevent tilting of the valve cover relative to the valve seating.

6. In a dry gas meter having at least one gas compartment with a diaphragm extending thereacross to divide the compartment into two separate gas chambers and having diaphragm actuated mechanism; the combination of a valve plate disposed above the gas compartment, an upwardly concave, semi-cylindrical valve seating mounted on said valve plate for cach gas compartment of the meter, said valve seating having two pairs of transversely arranged end gas ports opening at the opposite sides thereof and a partition extending longitudinally at the bottom of the seating and separating the end gas ports at one side of said valve seating from the paired end gas ports at the other side of the valve seating, said valve seating further having a transfer gas port at least at said other side of the valve seating and disposed between said end gas ports with said longitudinal partition defining the lower edge of said transfer gas port, an inlet gas conduit opening laterally into said endgas ports at said one side of the valve seating, an outlet gas conduit extending laterally from said transfer gas port at said other side of the valve seating, a gas duct extending downwardly from each of said end gas ports at said other side of the valve seating for connection to a corresponding one of the separate lgas chambers in the gas compartment. and a valve cover of semi-cylindrical outer contour slidingV longitudinally in said valve seating, said valve cover having a gasway extending transversely therethrough adjacent each of the opposite ends thereof, said transverse gasways being spaced longitudinally apart for alternative registration with a corresponding pair of said end gas ports, said valve cover further having a longitudinal partition extending between said transverse gasways and registering with said partition of the valve seating and a transfer gasway opening downwardly and laterally at the side of said longitudinal partition facing toward said other side of the valve seating, said transfer gasway being dimensioned to simultaneously register with said transfer port and with the one of said end gas ports at the other side of the valve seating which is then out of registration with the corresponding transverse gasway of the valve cover so that gas is directed from said inlet gas conduit through the registered end gas ports and transverse gasway of said valve seating and cover and then downwardly through one of the gas ducts into the related gas chamber while gas is simultaneously directed out of the other gas chamber through the related gas duct and corresponding end gas port into the transfer gasway and port for discharge into said outlet gas conduit.

7. In a dry gas meter; the combination according to claim 6, wherein said valve cover has a flat upper surface formed with at least one recess therein for the reception-of a suitable lubricant.

8. In a dry gas meter; the combination according to claim 6, wherein said valve cover has a longitudinally extending recess in the upper surface thereof, a plate slidable longitudinally in said recess, means for securing said plate in a desired adjusted position within said longitudinal recess, and means on said plate for connection to the diaphragm actuated mechanism of the meter.

9. In a dry gas meter; the combination according to claim 6, further comprising retaining strips secured to said valve plate along the upper edge portions of said valve seating and overlying the longitudinal edge portions of said valve cover to bear down on the latter and prevent tilting of the valve cover relative to the valve seating.

ROBERT NEWTON.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 477,910 Milsted June 28, 1892 505,715 Milsted Sept. 26, 1893 637,424 Seymour Nov. 21, 1899 654,309 .Ehebald July 24, 1900 686,773 Seymour Nov. 19, 1901 790,142 Lichetti May 16, 1905 1,090,864 Knight Mar. 24, 1914 1,120,262 Anderson Dec, 8, 1914 1,791,436 Ullrich Feb. 3, 1931 1,807,139 Volodimirov May 26, 1931 1,934,100 Schutz Dec. 11, 1934 2,065,007 MacLean Dec. 22, 1936 2,301,262 Dixon Nov. 10, 1942 2,395,963 Fergusson Mar. 5, 1946 2,441,618 Cole May 18, 1948 FOREIGN PATENTS Number Country Date 175,846 Great Britain Mar. 2, 1922 3,079 Australia July 16, 1931 395,184 Great Britain July 13, 1933 400,181 Great Britain Oct. 16, 1933 424,351 Great Britain Feb. 20, 1935 

